Featured Articles

1. Visual Optics Postdoctoral/Research Fellow Opening at Oregon Health & Science University

   Explore Optical Coherence Tomography News Mar 14 2019 Ophthalmology , Jobs & Studentships

   

   A postdoctoral research fellow position is available in the Center for Ophthalmic Optics & Lasers Lab ( www.coollab.net ), Casey Eye Institute, Oregon Health & Science University. This is an outstanding opportunity for a candidate to use optical coherence tomography to conduct visual optics research in an academic ophthalmology setting. The researcher on this position will work with a team of scientists, engineers and physicians to develop ultrahigh-performance OCT systems for comprehensive optical characterization of the anterior eye and wide-field ocular surface topography, to improve post-refractive surgery intraocular lens power calculation, therapeutic scleral lens design, diagnosis and classification of corneal shape irregularities ...

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   Mentions: National Institutes of Health David Huang Oregon Health & Science University

2. Conavi Medical Announces Health Canada Approval of Novasight Hybrid System for Visualization During Coronary Angioplasty Procedures

   Explore Optical Coherence Tomography News Mar 14 2019 Cardiology , Other Business News

   

   Conavi Medical Inc. is pleased to announce that it has received a Health Canada Medical Device License for the Novasight Hybrid System. This patented technology is the only clinical system that enables simultaneous imaging of coronary arteries with both intravascular ultrasound (IVUS) and optical coherence tomography (OCT), and was invented at Sunnybrook Research Institute. Angioplasty and stenting is performed four million times around the world every year as an important part of the treatment of coronary artery disease, including patients suffering from heart attacks and angina. Recent randomized studies with existing IVUS systems have shown that intravascular imaging has the ...

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   Mentions: Sunnybrook Health Sciences Centre Brian K. Courtney Conavi Medical Inc.

3. Finger-mounted quantitative micro-elastography

   Explore OSA | OSA Publishing Mar 14 2019 Probes

   

   We present a finger-mounted quantitative micro-elastography (QME) probe, capable of measuring the elasticity of biological tissue in a format that avails of the dexterity of the human finger. Finger-mounted QME represents the first demonstration of a wearable elastography probe. The approach realizes optical coherence tomography-based elastography by focusing the optical beam into the sample via a single-mode fiber that is fused to a length of graded-index fiber. The fiber is rigidly affixed to a 3D-printed thimble that is mounted on the finger. Analogous to manual palpation, the probe compresses the tissue through the force exerted by the finger. The resulting ...

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   Mentions: University of Western Australia University of St. Andrews Andrea Curatolo

4. Could An Eye Doctor Diagnose Alzheimer’s Before You Have Symptoms?

   Explore Duke Health Mar 12 2019 Neurology , Ophthalmology

   

   A quick eye exam might one day allow eye doctors to check up on both your eyeglasses prescription and your brain health. A study of more than 200 people at the Duke Eye Center published March 11 in the journal Ophthalmology Retina suggests the loss of blood vessels in the retina could signal Alzheimer’s disease. In people with healthy brains, microscopic blood vessels form a dense web at the back of the eye inside the retina, as seen in 133 participants in a control group. In the eyes of 39 people with Alzheimer’s disease, that web was less ...

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   Mentions: National Institutes of Health Duke University

5. Retinal Microvascular and Neurodegenerative Changes in Alzheimer’s Disease and Mild Cognitive Impairment Compared with Control Participants

   Explore Ophthalmology Retina Mar 12 2019 Neurology , Ophthalmology

   

   Purpose Evaluate and compare the retinal microvasculature in the superficial capillary plexus (SCP) in Alzheimer’s disease (AD), mild cognitive impairment (MCI), and cognitively intact controls using OCT angiography. OCT parameters were also compared. Design Cross-sectional study. Participants Seventy eyes from 39 AD participants, 72 eyes from 37 MCI participants, and 254 eyes from 133 control participants were enrolled. Methods Participants were imaged using Zeiss Cirrus HD-5000 with AngioPlex (Carl Zeiss Meditec, Dublin, CA) and underwent cognitive evaluation with Mini-Mental State Examination. Main Outcome Measures Vessel density (VD) and perfusion density (PD) in the SCP within the Early Treatment Diabetic ...

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   Mentions: Duke University Carl Zeiss Meditec

6. Quantitative reconstruction of time-varying 3D cell forces with traction force optical coherence microscopy

   Explore Nature Publishing Group Mar 11 2019

   

   Cellular traction forces (CTFs) play an integral role in both physiological processes and disease, and are a topic of interest in mechanobiology. Traction force microscopy (TFM) is a family of methods used to quantify CTFs in a variety of settings. State-of-the-art 3D TFM methods typically rely on confocal fluorescence microscopy, which can impose limitations on acquisition speed, volumetric coverage, and temporal sampling or coverage. In this report, we present the first quantitative implementation of a new TFM technique: traction force optical coherence microscopy (TF-OCM). TF-OCM leverages the capabilities of optical coherence microscopy and computational adaptive optics (CAO) to enable the ...

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   Mentions: Cornell University Steven G. Adie

7. Analysis of spatial resolution in phase-sensitive compression optical coherence elastography

   Explore OSA | OSA Publishing Mar 6 2019

   

   Optical coherence elastography (OCE) is emerging as a method to image the mechanical properties of tissue on the microscale. However, the spatial resolution, a main advantage of OCE, has not been investigated and is not trivial to evaluate. To address this, we present a framework to analyze resolution in phase-sensitive compression OCE that incorporates the three main determinants of resolution: mechanical deformation of the sample, detection of this deformation using optical coherence tomography (OCT), and signal processing to estimate local axial strain. We demonstrate for the first time, through close correspondence between experiment and simulation of structured phantoms, that resolution ...

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   Mentions: University of Western Australia Brendan F. Kennedy

8. Postdoctoral/Research Fellow Opening at Australian National University

   Explore Optical Coherence Tomography News Mar 6 2019 Jobs & Studentships

   

   Job Title: Postdoctoral/Research Fellow Location: Canberra / ACT Salary package: $71,509 - $111,365 per annum plus 17% superannuation Terms: Full time, Continuing Contingent Funded (1 year with possibility of renewal) Applications close: 02 Apr 2019 11:55:00 PM AUS Eastern Daylight Time Description: The Department of Quantum Science, Research School of Physics and Engineering at the Australian National University has a research collaboration with an industry partner to develop technology for the inspection of inorganic and organic materials. The Postdoctoral / Research Fellow will be a key member of a multi-disciplinary team to develop next-generation automatic three-dimensional volumetric imaging ...

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9. The LXXV Edward Jackson Memorial Lecture: Lessons Learned from Avastin and OCT: The Great, The Good, The Bad, and The Ugly

   Explore American Journal of Ophthalmology Mar 6 2019 Ophthalmology

   

   Purpose To describe the synergistic benefits and cost-savings from the use of optical coherence tomography (OCT) and vascular endothelial growth factor (VEGF) inhibitors, particularly intravitreal bevacizumab, in the treatment of exudative age-related macular degeneration (AMD) Design Retrospective literature review and personal perspective. Methods Retrospective literature review and personal perspective. Results The introduction of the first clinically useful OCT instrument coincided with early phase clinical trials of a drug that would become known as ranibizumab. OCT provided a non-invasive imaging strategy that unambiguously showed the macular fluid associated with exudative AMD and the ability of anti-VEGF therapy to resolve this fluid ...

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   Mentions: Philip J. Rosenfeld University of Miami

10. Functional retinal imaging using adaptive optics swept-source OCT at 1.6  MHz

    Explore OSA | OSA Publishing Mar 1 2019

    

    Objective optical assessment of photoreceptor function may permit earlier diagnosis of retinal disease than current methods such as perimetry, electrophysiology, and clinical imaging. In this work, we describe an adaptive optics (AO) optical coherence tomography (OCT) system designed to measure functional responses of single cones to visible stimuli. The OCT subsystem consisted of a raster-scanning Fourier-domain mode-locked laser that acquires A scans at 1.64 MHz with a center wavelength of 1063 nm and an AO system operating in closed-loop. Analysis of serial volumetric images revealed phase changes of cone photoreceptors consistent with outer segment elongation and proportional to stimulus ...

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    Mentions: John S. Werner Robert J. Zawadzki UCSD

11. Local wavefront mapping in tissue using computational adaptive optics OCT

    Explore OSA | OSA Publishing Feb 28 2019

    

    The identification and correction of wavefront aberrations is often necessary to achieve high-resolution optical images of biological tissues, as imperfections in the optical system and the tissue itself distort the imaging beam. Measuring the localized wavefront aberration provides information on where the beam is distorted and how severely. We have recently developed a method to estimate the single-pass wavefront aberrations from complex optical coherence tomography (OCT) data. Using this method, localized wavefront measurement and correction using computational OCT was performed in ex vivo tissues. The computationally measured wavefront varied throughout the imaged OCT volumes and, therefore, a local wavefront correction ...

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    Mentions: Stephen A. Boppart University of Illinois at Urbana-Champaign Fredrick A. South

12. Chief Technology Officer Opening at PhotoniCare

    Explore Optical Coherence Tomography News Feb 28 2019

    

    PhotoniCare, Inc. (www.photoni.care) is a medical device manufacturer located in Champaign, IL. We believe better decisions in patient care need to be made at the front lines of medicine, prior to specialty care, so we can improve outcomes and save on downstream healthcare costs. As a result, we’ve developed a low-cost handheld imaging platform that uses light to see through tissue. Our first product on this platform is empowering front- line providers to make better decisions about middle ear infections, the leading cause of hearing loss, antibiotic use, and surgeries in children. PhotoniCare has developed the TOMi ...

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    Mentions: FDA PhotoniCare

13. PhotoniCare, Inc. Signs Exclusive Distribution Agreement with Adachi Co., LTD to Commercialize the TOMi Scope in Japan

    Explore Optical Coherence Tomography News Feb 27 2019 Other Business News , Partnership

    

    PhotoniCare, Inc., a medical device company headquartered in Champaign, Illinois, has signed an exclusive distribution agreement with Adachi Co., LTD , (Osaka, Japan) to commercialize PhotoniCare’s TOMi ™ Scope device throughout Japan. PhotoniCare’s TOMi Scope uses an advanced light-based technology to see through the eardrum. For the first time, physicians can view a high-resolution depth image on-screen to directly visualize the middle ear contents. Current diagnostic tools can only provide a view of the surface of the eardrum, so physicians are left to guess, or, unfortunately, employ invasive surgical procedures to diagnosis middle ear pathologies. PhotoniCare’s non-invasive solution eliminates ...

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    Mentions: University of Illinois at Urbana-Champaign Ryan L. Shelton PhotoniCare

14. Deep Learning for Prediction of AMD Progression: A Pilot Study

    Explore IOVS Journal Feb 26 2019 Ophthalmology

    

    Purpose : To develop and assess a method for predicting the likelihood of converting from early/intermediate to advanced wet age-related macular degeneration (AMD) using optical coherence tomography (OCT) imaging and methods of deep learning. Methods : Seventy-one eyes of 71 patients with confirmed early/intermediate AMD with contralateral wet AMD were imaged with OCT three times over 2 years (baseline, year 1, year 2). These eyes were divided into two groups: eyes that had not converted to wet AMD ( n = 40) at year 2 and those that had ( n = 31). Two deep convolutional neural networks (CNN) were evaluated using 5-fold cross ...

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    Mentions: Jonathan D. Oakley Voxeleron

15. Microscale light management and inherent optical properties of intact corals studied with optical coherence tomography

    Explore Journals Feb 25 2019 NDE/NDT

    

    Coral reefs are highly productive photosynthetic systems and coral optics studies suggest that such high efficiency is due to optimized light scattering by coral tissue and skeleton. Here, we characterize the inherent optical properties, i.e. the scattering coefficient, μ s , and the anisotropy of scattering, g , of eight intact coral species using optical coherence tomography (OCT). Specifically, we describe light scattering by coral skeletons, coenoarc tissues, polyp tentacles and areas covered by fluorescent pigments (FP). Our results reveal that light scattering between coral species ranges from μ s = 3 mm −1 ( Stylophora pistillata ) to μ s = 25 mm −1 ( Echinopora lamelosa ) . For ...

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    Mentions: University of Copenhagen Steven L. Jacques Daniel Wangpraseurt

16. AO-OCT Comes into Focus

    Explore Photonics.com Feb 25 2019 Ophthalmology

    

    Adaptive optics (AO) technology is often used to correct for wavefront distortions imparted when light travels through complex optical systems, enhancing image resolution and facilitating diffraction-limited optics. It has played a particularly prominent role in ophthalmic imaging, where retinal tissue imaging is limited by inherent aberrations in the eye. Given the widespread adoption of OCT in clinical diagnostics over the last 20 years, these two techniques should be natural partners. But because of technological limitations on both sides, practical applications of AO-OCT have been difficult to implement. Improved imaging AO refers to a family of techniques used for correcting distortions ...

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    Mentions: University of Maryland Daniel X. Hammer Wasatch Photonics

17. Fried Illuminates the Future of Dentistry

    Explore NIH Record Newsletter Feb 25 2019 Dentistry

    

    For anyone who dreads going to the dentist, there may be light at the end of the tunnel. Advances in laser and light-based imaging technologies may soon change the face of modern dentistry. Dr. Daniel Fried Tooth enamel is almost transparent at longer wavelengths, making it possible to shine near-infrared light on a tooth to detect dental decay. “You can see right into the tooth,” said Dr. Daniel Fried, professor, University of California, San Francisco School of Dentistry. “The enamel looks almost like an ice cube.” Light-based imaging is minimally invasive, providing a safer alternative to an X-ray’s ionizing ...

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    Mentions: Daniel S. Fried UCSF

18. Tunable 1060nm VCSEL co-packaged with pump and SOA for OCT and LiDAR

    Explore SPIE Digital Library Feb 23 2019 Tunable Sources

    

    A 1060 nm optically pumped tunable VCSEL was formed from an InGaAs/AlGaAs/GaAs half-VCSEL bonded to a MEMS movable mirror on a silicon substrate. The VCSEL was co-packaged in a 14-pin butterfly module with an 825 nm pump laser and a 1060 nm semiconductor optical amplifier. The co-packaged device exhibited shot-noise-limited sensitivity with up to 50 mW output power and 75 nm tunability. Ophthalmic OCT, especially whole-eye imaging and ocular biometry, is considered the primary application of this device. However, we have also investigated LiDAR to greater than 10 meter ranges with non-mechanical beam steering through angular diffraction from ...

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    Mentions: Axsun Technologies Bart Johnson

19. Soliton microcomb based spectral domain optical coherence tomography

    Explore arxiv.org Feb 23 2019 Broadband Sources

    

    Spectral domain optical coherence tomography (SD-OCT) has become a widely applied minimally invasive technique for bio-medical imaging[1–4], and industrial process control[5]. One of the most commonly used light source for SD-OCT is based on superluminescent diodes (SLD), which provide a low-noise broadband coverage.[6] Recent advances have allowed creating photonic integrated chipscale frequency combs, that provide an attractive alternative illumination scheme for SD-OCT. Yet to date, the use of such soliton micro-combs in OCT has not been demonstrated or considered. Here we explore the use of soliton microcombs in spectral domain OCT. By using photonic chipscale Si3N4 ...

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    Mentions: Carl Zeiss Meditec Polytechnique Montreal Theo Lasser

20. BiOS Hot Topics: Changing of the Guard

    Explore Home: SPIE.org Feb 21 2019

    

    The near-capacity crowd at their ultimate session this week broke into applause as Rox Anderson opened with "This is the largest meeting in the world for biomedical optics, and that's because of you!" He added that the reason BiOS has grown so popular is the diversity of the intellect and specialties that are featured in the symposium, such as those involved in medicine, bioscience, and physics. James Fujimoto introduced the new BiOS co-chairs, Jennifer Barton of the University of Arizona and Wolfgang Drexler of the University of Vienna. Touching on the impressive backgrounds of each, Fujimoto noted, "we know ...

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    Mentions: James G. Fujimoto Wolfgang Drexler Leiden University

21. Computationally effective 2D and 3D fast phase unwrapping algorithms and their applications to Doppler optical coherence tomography

    Explore OSA | OSA Publishing Feb 20 2019

    

    We propose a simplification for a robust and easy to implement fast phase unwrapping (FPU) algorithm that is used to solve the phase wrapping problem encountered in various fields of optical imaging and metrology. We show that the number of necessary computations using the algorithm can be reduced compared to its original version. FPU can be easily extended from two to three spatial dimensions. We demonstrate the applicability of the two- and three-dimensional FPU algorithm for Doppler optical coherence tomography (DOCT) in numerical simulations, and in the imaging of a flow phantom and blood flow in the human retina in ...

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    Mentions: Nicolaus Copernicus University Maciej Szkulmowski Iwona Gorczynska

22. Quantitative nontumorous and tumorous human brain tissue assessment using microstructural co- and cross-polarized optical coherence tomography

    Explore Nature Publishing Group Feb 19 2019 Neurology , Oncology

    

    Optical coherence tomography (OCT) is a promising method for detecting cancer margins during tumor resection. This study focused on differentiating tumorous from nontumorous tissues in human brain tissues using cross-polarization OCT (CP OCT). The study was performed on fresh ex vivo human brain tissues from 30 patients with high- and low-grade gliomas. Different tissue types that neurosurgeons should clearly distinguish during surgery, such as the cortex, white matter, necrosis and tumorous tissue, were separately analyzed. Based on volumetric CP OCT data, tumorous and normal brain tissue were differentiated using two optical coefficients — attenuation and forward cross-scattering. Compared with white matter ...

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    Mentions: Institute of Applied Physics Grigory V. Gelikonov Elena V. Zagaynova

23. Optical coherence tomography-guided laser marking with tethered capsule endomicroscopy in unsedated patients

    Explore OSA | OSA Publishing Feb 19 2019 Gastroenterology

    

    Tethered capsule endomicroscopy (TCE) is an emerging screening technology that comprehensively obtains microstructural OCT images of the gastrointestinal (GI) tract in unsedated patients. To advance clinical adoption of this imaging technique, it will be important to validate TCE images with co-localized histology, the current diagnostic gold standard. One method for co-localizing OCT images with histology is image-targeted laser marking, which has previously been implemented using a driveshaft-based, balloon OCT catheter, deployed during endoscopy. In this paper, we present a TCE device that scans and targets the imaging beam using a low-cost stepper motor that is integrated inside the capsule. In ...

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    Mentions: Guillermo J. Tearney Massachusetts General Hospital Harvard University

24. System Engineer Opening at Heidelberg Engineering in Lübeck Germany

    Explore Optical Coherence Tomography News Feb 14 2019 Jobs & Studentships

    

    We are looking for In order to support our development department in Lübeck, we are looking for a professionally and personally convincing personality. We offer you an exciting and responsible position in a fast-growing company. Our Lübeck site specialises in OCT technology and systems integration. With your high understanding of systems, you will accompany a project from the initial conception, through the definition of the architecture, the construction of prototypes to testing and handover to production. Your responsibilities System development from the basic concept to production Evaluation of new technological possibilities Definition and elaboration of the system architecture ...

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    Mentions: Heidelberg Engineering
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